Great explanation - Subscribed to learn more! Around 3:08 into the video it was mentioned Bernoulli's eq. not valid if streamline passes through pump or turbine. We should still be able to use Bernoulli if our point 1 is right after the pump, correct? Somewhat off topic question: What is the best method to estimate the pressure in a section of pipe? Currently I have a system curve that estimates the total head required at a specific flow rate. But I am interested in determining gage pressure at an x distance of pipe under a specific flow rate. Appreciate your help.
Beautifully explained ....thanks a lot
Best videos made for Fluid Mechanics ❤️
Hooray!
I could not wrap my head around this concept. You just did that in 5 minutes, thank you!
5 minute and 26 seconds :)
Great explanation - Subscribed to learn more! Around 3:08 into the video it was mentioned Bernoulli's eq. not valid if streamline passes through pump or turbine. We should still be able to use Bernoulli if our point 1 is right after the pump, correct? Somewhat off topic question: What is the best method to estimate the pressure in a section of pipe? Currently I have a system curve that estimates the total head required at a specific flow rate. But I am interested in determining gage pressure at an x distance of pipe under a specific flow rate. Appreciate your help.
Great animation all creators, to the point with full detail...
Thank you so much...
You're welcome!
How do you measure the desnity of the fluid to determine the speed using eq: v=sqrt[(p2-p1)/rho]?
If it is air, you can use the ideal gas law. For liquids, you can look up the values in tables.
Munson, Young, Okiishi "Fundamentals of Fluid Mechanics?"